Quantum random number generation based on phase reconstruction

Author:

Li Jialiang1,Huang Zitao1,Yu Chunlin2,Wu Jiajie2,Zhao Tongge2,Zhu Xiangwei1,Sun Shihai1ORCID

Affiliation:

1. Shenzhen Campus of Sun Yat-sen University

2. China Greatwall Technology Group CO.

Abstract

Quantum random number generator (QRNG) utilizes the intrinsic randomness of quantum systems to generate completely unpredictable and genuine random numbers, finding wide applications across many fields. QRNGs relying on the phase noise of a laser have attracted considerable attention due to their straightforward system architecture and high random number generation rates. However, traditional phase noise QRNGs suffer from a 50% loss of quantum entropy during the randomness extraction process. In this paper, we propose a phase-reconstruction quantum random number generation scheme, in which the phase noise of a laser is reconstructed by simultaneously measuring the orthogonal quadratures of the light field using balanced detectors. This enables direct discretization of uniform phase noise, and the min-entropy can achieve a value of 1. Furthermore, our approach exhibits inherent robustness against the classical phase fluctuations of the unbalanced interferometer, eliminating the need for active compensation. Finally, we conducted experimental validation using commercial optical hybrid and balanced detectors, achieving a random number generation rate of 1.96 Gbps at a sampling rate of 200 MSa/s.

Funder

Shenzhen Science and Technology Program

National Natural Science Foundation of China

China Electronics Core Research Fund

Publisher

Optica Publishing Group

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